CN209886911U

CN209886911U - Laser cutting equipment of interior contract rubber product

Info

Publication number: CN209886911U
Application number: CN201920203521.5U
Authority: CN
Inventors: 钟仁东
Original assignee: Suzhou East Hair Hardware Viscose Products Co Ltd
Current assignee: Suzhou East Hair Hardware Viscose Products Co Ltd
Priority date: 2019-02-18
Filing date: 2019-02-18
Publication date: 2020-01-03
Anticipated expiration: 2029-02-18

Abstract

The utility model relates to a laser cutting device for an inner shrinking rubber product, which comprises a base, a carrier platform and a portal frame which are arranged on the base, and a laser head which is arranged on the portal frame; the carrier platform can move in the Y direction under the drive of the Y-direction drive device, and the laser head can move in the X direction and the Z direction under the drive of the X-direction drive device and the Z-direction drive device; the laser emission angle of the laser head faces the carrier platform perpendicularly. This laser cutting equipment, simple structure, reasonable in design, and equipment is small, and the shrink glues the product and makes a design in the mainly used, can save the mould expense in the sample stage, and one person one machine accomplishes whole production tasks, saves unnecessary manpower and materials, has retrencied production flow, has improved production efficiency.

Description

Laser cutting equipment of interior contract rubber product

Technical Field

The utility model relates to a mechanical equipment, especially a laser cutting equipment for producing the product that contracts in and glue.

Background

More and more inner shrinking rubber products are processed, and the size of the inner shrinking rubber products needs to be verified in a sample stage, so that the dies need to be tested repeatedly, and more manual matching is needed.

At present, a corrosion die is generally adopted to match with a die cutting machine to process the internal shrinkage rubber, and then a manual sleeving and pasting jig is needed to carry out gluing. In the test stage, the mould can not ensure the one-time OK, thereby causing the waste of the cost of the mould and the labor hour; and repeated verification possibly delays the client delivery, influences the use of the client and causes adverse effects on company credit. Therefore, by improving the laser machine, the technology for cutting the inner shrinking glue by the laser machine is designed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of prior art and providing a laser cutting equipment that is used for the interior throat to glue the product and makes a design and use.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a laser cutting device for an inner shrinking rubber product comprises a base, a carrier platform and a portal frame which are arranged on the base, and a laser head arranged on the portal frame; the carrier platform can move in the Y direction under the drive of the Y-direction drive device, and the laser head can move in the X direction and the Z direction under the drive of the X-direction drive device and the Z-direction drive device; the laser emission angle of the laser head faces the carrier platform perpendicularly.

Preferably, the Z-direction driving device is in transmission connection with the X-direction driving device.

Preferably, the Z-direction driving device comprises a mounting seat, a Z-direction reciprocating screw rod, a Z-direction driving motor and a transmission base; the Z-direction driving motor controls the Z direction to rotate towards the multifilament rod so as to drive the mounting seat to move in the Z direction; the laser head is installed at the lower tip of mount pad.

Preferably, the X-direction driving device comprises an X-direction reciprocating screw rod, an X-direction driving motor and an X-direction guide seat; x is to being connected on the portal frame to the multifilament pole through X to the guide holder level form, the transmission base is connected to the multifilament pole transmission toward with X, X is to the multifilament pole rotation and then drive the transmission base and move to X to driving motor control X, drives the laser head at last and moves to X.

Preferably, the two X-direction guide seats are symmetrically arranged on the portal frame, and the X-direction multifilament rods penetrate through the two X-direction guide seats.

Preferably, the Y-direction driving device comprises a Y-direction driving motor, a Y-direction reciprocating screw rod and a Y-direction guide seat; y is to being connected on the base to the multifilament pole through Y to the guide holder level form, the carrier platform is connected with Y to the transmission of multifilament pole, Y is to driving motor control Y to the multifilament pole rotation and then drive the carrier platform and move in Y to the multifilament pole.

Preferably, the Y-direction guide seats are symmetrically disposed on the base, and the Y-direction multifilament bar passes through the two Y-direction guide seats.

Preferably, a Y-direction guide rail is further fixedly arranged on the base, and a sliding chute matched with the Y-direction guide rail is arranged at the lower end of the carrier platform; the Y-direction guide slide rail is parallel to the Y-direction multifilament rod.

Preferably, the two Y-direction guide sliding rails are symmetrically arranged on two sides of the Y-direction multifilament rod.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

the utility model discloses the laser cutting equipment of product is glued to internal contracting of scheme for the product is glued to the internal contracting makes a design, can save the mould expense in sample stage, and one person one machine accomplishes whole production tasks, saves unnecessary manpower and materials, has retrencied production flow, has improved production efficiency.

Drawings

The technical scheme of the utility model is further explained by combining the attached drawings as follows:

fig. 1 is a schematic perspective view of the present invention (the motors are omitted in the figure);

FIG. 2 is a front view of the present invention;

wherein: 1. a base; 2. a carrier platform; 3. a gantry; 4. a laser head; 51. a mounting seat; 52. a Z-direction driving motor; 53. a transmission base; 61. an X-direction reciprocating screw rod; 62. an X-direction driving motor; 63. an X-direction guide seat; 72. a Y-direction reciprocating screw rod; 73. a Y-direction guide seat; 8. and Y-direction guide slide rails.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-2, the laser cutting equipment for the inner shrinking rubber product of the present invention comprises a base 1, a carrier platform 2 and a portal frame 3 which are arranged on the base 1, and a laser head 4 which is arranged on the portal frame 3; the carrier platform 2 can move in the Y direction under the drive of a Y-direction drive device, and the laser head 4 can move in the X direction and the Z direction under the drive of an X-direction drive device and a Z-direction drive device; the laser emission angle of the laser head 4 vertically faces the carrier platform 2; the Z-direction driving device is in transmission connection with the X-direction driving device; the Z-direction driving device comprises a mounting seat 51, a Z-direction reciprocating screw rod (hidden in the figure and not shown), a Z-direction driving motor 52 and a transmission base 53; the Z-direction driving motor 52 controls the Z-direction to rotate towards the multifilament bar so as to drive the mounting base 51 to move in the Z direction; the laser head 4 is mounted on the lower end of the mounting seat 51. The X-direction driving device comprises an X-direction reciprocating screw rod 61, an X-direction driving motor 62 and an X-direction guide seat 63; the X-direction reciprocating screw rod 61 is horizontally connected to the portal frame 3 through an X-direction guide base 63, the transmission base 53 is in transmission connection with the X-direction outgoing multifilament rod 61, the X-direction driving motor 62 controls the X-direction outgoing multifilament rod 61 to rotate so as to drive the transmission base 53 to move in the X-direction, and finally the laser head 4 is driven to move in the X-direction; two X-direction guide seats 63 are symmetrically arranged on the portal frame 3, and the X-direction reciprocating screw rod 61 penetrates through the two X-direction guide seats 63; the X-direction reciprocating screw rod 61 is used for ensuring stable transmission in the X direction.

The Y-direction driving device comprises a Y-direction driving motor (not shown in the figure and connected to the rear end of the Y-direction reciprocating screw rod), a Y-direction multi-filament rod 72 and a Y-direction guide seat 73; the Y-direction reciprocating screw rod 72 is horizontally connected to the base 1 through a Y-direction guide seat 73, the carrier platform 2 is in transmission connection with the Y-direction outgoing multifilament rod 72, and the Y-direction driving motor controls the Y-direction outgoing multifilament rod 72 to rotate so as to drive the carrier platform 2 to move in the Y direction; two Y-direction guide seats 73 are symmetrically arranged on the base 1, and the Y-direction reciprocating screw 72 passes through the two Y-direction guide seats 73; the Y-direction reciprocating screw 72 is used for ensuring stable transmission in the Y direction.

A Y-direction guide slide rail 8 is fixedly arranged on the base 1, and a sliding groove matched with the Y-direction guide slide rail 8 is arranged at the lower end of the carrier platform 2; the Y-direction guide slide rail 8 is parallel to the Y-direction reciprocating screw rod 72; the two Y-direction guide slide rails 8 are symmetrically arranged on two sides of the Y-direction reciprocating screw rod 72, and the design is used for increasing the moving stability of the carrier platform 2 in the Y direction.

The utility model discloses the laser cutting equipment of the product is glued in contracting of scheme, simple structure, reasonable in design, and equipment is small, and the product is glued in mainly used contracts and makes an appearance, can save the mould expense in sample stage, and one person accomplishes whole production tasks a machine, saves unnecessary manpower and materials, has retrencied production flow, has improved production efficiency.

The above is only a specific application example of the present invention, and does not constitute any limitation to the protection scope of the present invention. All the technical solutions formed by equivalent transformation or equivalent replacement fall within the protection scope of the present invention.

Claims

1. The utility model provides a laser cutting equipment of interior contract glue product which characterized in that: comprises a base (1), a carrier platform (2) and a portal frame (3) which are arranged on the base (1), and a laser head (4) which is arranged on the portal frame (3); the carrier platform (2) can move in the Y direction under the drive of a Y-direction drive device, and the laser head (4) can move in the X direction and the Z direction under the drive of an X-direction drive device and a Z-direction drive device; the laser emission angle of the laser head (4) faces the carrier platform (2) vertically.

2. The laser cutting apparatus for an inside shrinking compound product according to claim 1, wherein: and the Z-direction driving device is in transmission connection with the X-direction driving device.

3. The laser cutting apparatus for the implosion products of claim 2, wherein: the Z-direction driving device comprises a mounting seat (51), a Z-direction reciprocating screw rod, a Z-direction driving motor (52) and a transmission base (53); the Z-direction driving motor (52) controls the Z-direction to rotate towards the multifilament rod so as to drive the mounting base (51) to move in the Z direction; the laser head (4) is installed at the lower end part of the installation seat (51).

4. The laser cutting apparatus for an inside shrinking compound product according to claim 3, wherein: the X-direction driving device comprises an X-direction reciprocating screw rod (61), an X-direction driving motor (62) and an X-direction guide seat (63); x is connected on portal frame (3) to reciprocal lead screw (61) through X to guide holder (63) level form, transmission base (53) are connected to reciprocal lead screw (61) transmission with X, X is to driving motor (62) control X to reciprocal lead screw (61) rotate and then drive transmission base (53) and move in X to the removal, finally drive laser head (4) and move in X to the removal.

5. The laser cutting apparatus for the implosion products of claim 4, wherein: the number of the X-direction guide seats (63) is two, the X-direction guide seats are symmetrically arranged on the portal frame (3), and the X-direction reciprocating screw rod (61) penetrates through the two X-direction guide seats (63).

6. The laser cutting apparatus for the implosion products of claim 5, wherein: the Y-direction driving device comprises a Y-direction driving motor, a Y-direction reciprocating screw rod (72) and a Y-direction guide seat (73); the Y-direction reciprocating screw rod (72) is horizontally connected to the base (1) through a Y-direction guide seat (73), the carrier platform (2) is in transmission connection with the Y-direction reciprocating screw rod (72), and the Y-direction driving motor controls the Y-direction reciprocating screw rod (72) to rotate so as to drive the carrier platform (2) to move in the Y direction.

7. The laser cutting apparatus for the implosion products of claim 6, wherein: the number of the Y-direction guide seats (73) is two, the Y-direction guide seats are symmetrically arranged on the base (1), and the Y-direction reciprocating screw rod (72) penetrates through the two Y-direction guide seats (73).

8. The laser cutting apparatus for the implosion products of claim 7, wherein: a Y-direction guide sliding rail (8) is fixedly arranged on the base (1), and a sliding groove matched with the Y-direction guide sliding rail (8) is formed in the lower end of the carrier platform (2); the Y-direction guide slide rail (8) is parallel to the Y-direction reciprocating screw rod (72).

9. The laser cutting apparatus for the implosion products of claim 8, wherein: the two Y-direction guide slide rails (8) are symmetrically arranged on two sides of the Y-direction reciprocating screw rod (72).